Brain-derived neurotrophic factor stimulates the retrograde pathway for axonal autophagy.

Autophagy is a lysosomal degradation pathway important for neuronal development, function, and survival. How autophagy in axons is regulated by neurotrophins to impact neuronal viability and function is poorly understood. Here, we use live-cell imaging in primary neurons to investigate the regulation of axonal autophagy by the neurotrophin brain-derived neurotrophic factor (BDNF) and elucidate whether autophagosomes carry BDNF-mediated signaling information.

Retrograde Axonal Autophagy and Endocytic Pathways Are Parallel and Separate in Neurons.

Autophagy and endocytic trafficking are two key pathways that regulate the composition and integrity of the neuronal proteome. Alterations in these pathways are sufficient to cause neurodevelopmental and neurodegenerative disorders. Thus, defining how autophagy and endocytic pathways are organized in neurons remains a key area of investigation.

Synaptic activity controls autophagic vacuole motility and function in dendrites.

Macroautophagy (hereafter "autophagy") is a lysosomal degradation pathway that is important for learning and memory, suggesting critical roles for autophagy at the neuronal synapse. Little is known, however, about the molecular details of how autophagy is regulated with synaptic activity. Here, we used live-cell confocal microscopy to define the autophagy pathway in primary hippocampal neurons under various paradigms of synaptic activity.

Differential regulation of autophagy during metabolic stress in astrocytes and neurons.

Unlabelled: Macroautophagy/autophagy is a key homeostatic process that targets cytoplasmic components to the lysosome for breakdown and recycling. Autophagy plays critical roles in glia and neurons that affect development, functionality, and viability of the nervous system. The mechanisms that regulate autophagy in glia and neurons, however, are poorly understood.

Methods for Imaging Autophagosome Dynamics in Primary Neurons.

Autophagy is an essential degradative pathway that maintains neuronal homeostasis and prevents axon degeneration. However, the mechanisms of autophagy in neurons are only beginning to be understood. To address this fundamental gap in knowledge, we have established several key methodologies for live-cell imaging and quantitative analysis of autophagy in primary hippocampal neurons.

Neuronal endosomes to lysosomes: A journey to the soma.

How are lysosomal degradation pathways spatially organized in the complex landscape of a neuron? Cheng et al. (2018. https://doi.

Compartment-specific dynamics and functions of autophagy in neurons.

Autophagy is a lysosomal degradation pathway that is critical to maintaining neuronal homeostasis and viability. Autophagy sequesters damaged and aged cellular components from the intracellular environment, and shuttles these diverse macromolecules to lysosomes for destruction. This active surveillance of the quality of the cytoplasm and organelles is essential in neurons to sustain their long-term functionality and viability.